The effect of long term high temperature annealing on twinning and detwinning of the wrought Ni3Al-based alloy

“…Lee et al [ 43 ] studied the long-term annealing behaviors of commercially pure nickel with low-level deformation under moderate annealing temperatures of 700 °C and 800 °C for 168 h. The increased special twin boundaries result in disrupting the connectivity of the random boundary network. Qian et al [ 104 ] characterized the GBCD of a wrought Ni3Al-based alloy that underwent long-term annealing at 1180 °C for durations ranging from 10 to 40 h. The results indicated that twinning and detwinning occur and evolve competitively during the annealing process, with a reduction in the frequency of Σ3 twin boundaries observed as annealing time increases.…”

“…The increased special twin boundaries result in disrupting the connectivity of the random boundary network. Qian et al [104] characterized the GBCD of a wrought Ni3Al-based alloy that underwent long-term annealing at 1180 °C for durations ranging from 10 to 40 h. The results indicated that twinning and detwinning occur and evolve competitively during the annealing process, with a reduction in the frequency of Σ3 twin boundaries observed as annealing time increases. Additionally, certain researchers have also directed their attention toward analyzing the influence of processing passes during TMP treatment on the GBCD of FCC materials.…”

A Review on Controlling Grain Boundary Character Distribution during Twinning-Related Grain Boundary Engineering of Face-Centered Cubic Materials

“…Lee et al [ 43 ] studied the long-term annealing behaviors of commercially pure nickel with low-level deformation under moderate annealing temperatures of 700 °C and 800 °C for 168 h. The increased special twin boundaries result in disrupting the connectivity of the random boundary network. Qian et al [ 104 ] characterized the GBCD of a wrought Ni3Al-based alloy that underwent long-term annealing at 1180 °C for durations ranging from 10 to 40 h. The results indicated that twinning and detwinning occur and evolve competitively during the annealing process, with a reduction in the frequency of Σ3 twin boundaries observed as annealing time increases.…”

“…The increased special twin boundaries result in disrupting the connectivity of the random boundary network. Qian et al [104] characterized the GBCD of a wrought Ni3Al-based alloy that underwent long-term annealing at 1180 °C for durations ranging from 10 to 40 h. The results indicated that twinning and detwinning occur and evolve competitively during the annealing process, with a reduction in the frequency of Σ3 twin boundaries observed as annealing time increases. Additionally, certain researchers have also directed their attention toward analyzing the influence of processing passes during TMP treatment on the GBCD of FCC materials.…”

A Review on Controlling Grain Boundary Character Distribution during Twinning-Related Grain Boundary Engineering of Face-Centered Cubic Materials

Effect of the Type of an Alkaline Solution on the Corrosion Resistance of WC–Ni3Al-Composites

Influences of solution cooling rate on microstructural evolution of a multiphase Ni3Al-based intermetallic alloy